KR101220086B1 - Thermocouple assembly for measuring the surface temperature of a hydrogen ignitor - Google Patents

Abstract

The present invention provides a sensor unit 31, a sheath thermocouple 32 connected to one end of the sensor unit 31, a cable 35 connected to one end of the sheath thermocouple 32, and the cable 35 A thermocouple assembly comprising a connector 36 connected to one end of the sensor, wherein the sensor portion 31 is welded with a thermocouple wire 41 to form a contact 42, and a portion of the thermocouple contact 42 protrudes to protrude a hydrogen igniter. It is provided between the coil and the coil to provide a thermocouple assembly characterized in that it is formed so as to measure the temperature.

Description

Thermocouple assembly for measuring the surface temperature of a hydrogen ignitor

The present invention relates to a thermocouple assembly for measuring the surface temperature of a hydrogen igniter, and more particularly to an exposed thermocouple assembly capable of quickly and accurately measuring the surface temperature of a heater coiled at equal intervals, such as a hydrogen igniter.

In a nuclear power plant, when a serious accident occurs, the inside of the containment vessel becomes hot, and a large amount of hydrogen is generated by oxidation of a material inside the reactor. In other words, when a serious accident occurs and the core is exposed, the fuel coating material, Zircaloy, causes an oxidation reaction with water vapor to generate a lot of hydrogen. At the same time, this reaction is an exothermic reaction that generates a lot of heat, thus facilitating accident progress and significantly affecting fuel and reactor failure. In addition, it is known that a large amount of hydrogen generated during a serious accident in which the core is melted causes an explosion reaction, thereby directly applying a load to the containment building, thereby threatening the integrity of the containment building and causing damage to safety-related equipment.

In fact, in the U.S. TMI-2 incident, a large amount of hydrogen was generated and released into the containment vessel by reaction with the fuel cladding and core melt and water vapor. As such, when hydrogen is released into the containment vessel, the hydrogen igniter must be burned to prevent the release of hydrogen into the containment vessel. Therefore, when the hydrogen is released, the hydrogen igniter must always be kept above 700 ° C in order to burn the released hydrogen immediately. As such, it is necessary to confirm whether the temperature of the hydrogen igniter is always maintained at 700 ° C. or higher. The present invention relates to a thermocouple assembly for measuring the temperature of the hydrogen igniter.

Conventionally, a thermocouple assembly for measuring surface temperature, which is designed to measure the surface temperature of an object to be measured, has been used.

1 is a perspective view of a conventional thermocouple assembly.

The thermocouple assembly 10 includes a sensor part 1, a sheath part 2 connected to the sensor part 1, a handle 3 formed at one end of the sheath part 2, and a cable connected to the sheath part 2. (4) and a connector (5) connected to the cable (4).

The handle 3 serves to effectively handle the surface measuring thermocouple assembly 10 and serves to connect the sensor portion 1 and the cable 4.

The cable 4 allows the signal of the sensor unit 1 to be transmitted to the connector 5.

The connector 5 is connected to a measuring instrument (not shown), so that the electromotive force generated in the sensor unit 1 can be transmitted to the measuring instrument.

2 is a partial cross-sectional perspective view of a conventional sensor unit 1.

The sensor unit 1 includes a shock absorber 12 formed on both sides of the thermocouple wire 11 and the thermocouple wire 11, a stopper 13 positioned below the thermocouple wire 11, and a thermocouple wire in an upper opening. It consists of the protection tube 14 which forms 11, forms the shock absorber 12 in the opening part of a side surface, and accommodates the stopper 13 inside.

The thermocouple wire 11 measures and outputs an electromotive force proportional to the temperature, and the shock absorber 12 is formed on both sides of the thermocouple wire 11.

The shock absorber 12 maintains a constant load so that the thermocouple wire 11 can make good contact with the surface of the object to be measured, and after the surface temperature is measured, that is, the protective tube 14 It keeps the shape round outward.

The stopper 13 is positioned under the thermocouple wire 11 to prevent the thermocouple wire 11 from being pushed into the protective tube 14 during the temperature measurement, thereby reducing the contact force with the surface of the object to be measured. Play a role.

The protective tube 14 protects the thermocouple wire 11, the shock absorber 12, and the stopper 13, and serves to block external wind or external temperature that may cause a temperature error when measuring the temperature. .

3 is an actual measurement position diagram.

The thermocouple assembly 10 is in close contact with and in contact with the coil 22 portion of the hydrogen igniter 20.

The contact state is conceptually shown in (a) of FIG. 7 in which the thermocouple wire 11 contacts the coil 22 as a whole.

As shown in FIG. 3 and FIG. 7A, in the conventional surface temperature measuring thermocouple assembly 10, the area of the thermocouple wire 11 and the shock absorber 12 is large, and thus the coil 22 of the hydrogen igniter 20 is increased. The contact area with) is wide.

In the case of the surface temperature measuring thermocouple assembly 10, when contacting the hydrogen igniter 20, which is a temperature measurement target, the temperature is measured by receiving the heat of the temperature measurement target, which simultaneously occurs an effect of depriving the temperature of the temperature measurement target. Therefore, when the contact area with the coil becomes wide, there is a problem that the temperature of the coil 22 of the hydrogen igniter 20 is taken away and measured to be lower than the present heat generation temperature.

In addition, FLUKE's 80PK-27, a conventional thermocouple assembly, recommends a maximum measurable temperature of 600 ° C, which is not suitable for measuring coil temperatures for hydrogen igniters that should be measured above 700 ° C.

By ignoring the maximum temperature recommendations, attempts were made to determine that, in theory, the thermocouple wire and shock absorber would take the temperature down to a value of 850 ° C or lower, but in practice, the temperature reading would indicate 900 ° C or higher. In other words, when the temperature is measured by a conventional thermocouple assembly, the temperature value measured on the system is displayed, but there is a problem that an unreliable value appears.

The present invention has been made to solve the above problems, and it is an object of the present invention to provide a thermocouple assembly capable of accurately measuring the temperature of a hydrogen igniter coil in a range of 700 ° C or more and 1200 ° C or less.

As a solving means for solving the above problems, the present invention by changing the temperature measuring contact structure for measuring the temperature of the sensor unit of the conventional product, the sensor unit is inserted between the hydrogen igniter coil to change the temperature.

The surface temperature measuring thermocouple assembly for hydrogen igniter of the present invention includes a sensor unit 31, a sheath thermocouple 32 connected to one end of the sensor unit 31, and a cable 35 connected to the sheath thermocouple 32. And a thermocouple assembly composed of a connector 36, wherein the sensor portion 31 is welded with a thermocouple wire to form a contact, and a thermocouple contact portion protrudes between the coil and the coil of the hydrogen igniter to measure temperature. It is formed to be.

In the thermocouple assembly of the present invention, the sheath thermocouple 32 and the cable 35 may be connected through the adapter 33 and the handle 34.

In the thermocouple assembly of the present invention, the adapter 33 has an upper portion formed with a protrusion 51 for fastening with the sheath thermocouple 32, and the side surface has a thread 52 for fastening with the handle 34 is formed. In addition, a space 53 to which the sheath thermocouple 32 and the cable 35 are connected may be provided.

In the thermocouple assembly of the present invention, the adapter 33 is made of stainless, the handle 34 is made of plastic, and the thermocouple wire of the sheath thermocouple 32 and the wire of the cable 35 are inside the adapter 33. Can form contacts.

In addition, in the prior art, an insulating material was coated on the thermocouple wire to insulate the shock absorber from the thermocouple wire. However, in the present invention, the alumina block serves as a stopper and insulation of the protective tube of the thermocouple wire and the protective tube without coating the insulating material. It can be formed as.

In addition, the thermocouple of the present invention may use a K-Type thermocouple.

According to the present invention, since the contact of the thermocouple wire protrudes and is sandwiched between the coil of the hydrogen igniter and the coil to measure the temperature, the cross-sectional area with the hydrogen igniter coil is minimized, the temperature decrease of the coil is minimized, and the temperature is measured. This makes it possible to minimize the temperature measurement error.

In addition, high-temperature measurements are possible with an alumina block that maintains insulation between the thermocouple wire and the protective tube, and the sheath thermocouple and cable are coupled inside the adapter, making them more resistant to external shocks and deformation.

1 is a perspective view of a conventional product.
2 is a partial cross-sectional perspective view of a sensor part of a conventional product.
3 is a temperature measurement diagram of a hydrogen igniter and a conventional product.
4 is a perspective view of a thermocouple assembly according to the present invention.
5 is a perspective view of a sensor unit according to the present invention.
6 is a cross-sectional view of the adapter according to the present invention.
7 is a measurement explanatory diagram.
8 is a partial cross-sectional view of the handle.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the drawings.

4 is a perspective view of a thermocouple assembly 30 according to the present invention.

The thermocouple assembly 30 for measuring the surface temperature for the hydrogen igniter includes a sensor unit 31, a sheath thermocouple 32 connected to one end of the sensor unit 31, an adapter 33, a handle 34, and a cable 35. And a connector 36.

5 is a perspective view of the sensor unit 31 according to the present invention.

The sensor part 31 is comprised from the thermocouple wire 41, the stopper 43, and the protective tube 44. As shown in FIG. The thermocouple wire 41 forms and protrudes the temperature contact 42 to facilitate temperature measurement of the hydrogen igniter coil. That is, when the contact area with the coil is large, the contact surface changes to black and the temperature decreases, which causes an error in the temperature measurement. In the present invention, the temperature measuring contact is formed in the groove between the hydrogen igniter coil and the coil. (42) The protrusions are fitted to minimize the temperature drop of the coil and to enable more accurate temperature measurements.

The stopper 43 serves to hold the projection, which forms the contact of the thermocouple wire at the time of temperature measurement, so as not to be pushed back when the projection is inserted between the hydrogen igniter coil and the coil, and the thermocouple wire 41 and the protective tube 44. It keeps the insulation between. The protective tube 44 protects the thermocouple wire 41 and the stopper 43, and serves to block external wind or external temperature that may cause a temperature error during temperature measurement.

6 is a cross-sectional view of the adapter 33 according to the present invention.

The adapter 33 is formed with a projection 51 for fastening with the sheath thermocouple 32 by welding or brazing, crimping, etc., and a thread 52 for fastening with the handle 34 on the side thereof. The inside is provided with a space 53 to which the sheath thermocouple 32 and the cable 35 are connected.

The handle 34 serves to effectively handle the surface measurement thermocouple assembly.

7 is an explanatory view of measurement according to the present invention.

Figure 7 (a) is a diagram illustrating the method to be measured when measuring the temperature of the hydrogen igniter coil in a conventional thermocouple assembly. It is measured over five hydrogen igniter coils at a temperature of 900 ° C.

Figure 7 (b) is a diagram illustrating the method to be measured when measuring the temperature of the hydrogen igniter coil with the thermocouple assembly of the present invention. The hydrogen igniter is measured between the coils of the two coils and the coil, with the temperature measured at the center of the coil being 850 ° C.

Therefore, as shown in Figure 7, the thermocouple assembly of the present invention can minimize the error when measuring the temperature because there are fewer contacts than the conventional thermocouple assembly.

8 is a partial cross sectional view of a handle 34 according to the present invention.

The handle 34 is made of plastic and is coupled with the adapter 33 made of stainless steel. The thermocouple wire of the sheath thermocouple 32 and the wire of the cable 35 form a contact 81 inside the adapter 33, and the surrounding space is filled with epoxy 82 to maintain insulation.

The cable 35 serves as a signal transmission for connecting the sensor signal to the connector, and the connector 36 located at the end of the cable 35 is a means for connecting the thermocouple assembly 30 to an instrument (not shown). The electromotive force generated by the sensor can be transferred to the instrument.

Claims (4)

The sensor unit 31,
Sheath thermocouple 32 connected to one end of the sensor unit 31,
A cable 35 connected to one end of the sheath thermocouple 32,
A thermocouple assembly comprising a connector 36 connected to one end of the cable 35,
The sensor part 31 has a plate shape so that the thermocouple wire 41 is welded to form a contact 42, and the thermocouple contact 42 is protruded to be inserted between the coil and the coil of the hydrogen igniter to measure the temperature. The stopper 43 is formed so that the projection forming the contact of the thermocouple wire at the time of temperature measurement is not pushed back when it is sandwiched between the hydrogen igniter coil and the coil, and the thermocouple wire 41 and the protective tube 44 Thermocouple assembly, characterized in that it is formed to maintain the insulation between. The method of claim 1,
Thermocouple assembly characterized in that the connection of the sheath thermocouple (32) and the cable (35) via the adapter (33) and the handle (34). The method of claim 2,
The adapter 33, the upper portion is formed with a protrusion 51 for fastening with the sheath thermocouple 32, the side is formed with a thread 52 for fastening with the handle 34, the inside of the sheath Thermocouple assembly characterized in that a space (53) is provided to connect the thermocouple (32) and the cable (35). The method according to claim 2 or 3,
The adapter 33 is made of stainless steel, the handle 34 is made of plastic, and the thermocouple wire 41 of the sheath thermocouple 32 and the wire of the cable 35 make contact with the inside of the adapter 33. Forming a thermocouple assembly.

Images